Speaker assemblies and mobile terminals including the same

ABSTRACT

Mobile terminals include a housing, an electronic circuit and a speaker assembly positioned in the housing. The speaker assembly includes a first speaker positioned adjacent a first side of the electronic circuit and a second speaker positioned adjacent the first speaker on the first side of the electronic circuit. A grommet may be positioned in the housing that is configured to receive the first speaker and the second speaker and the first speaker and the second speaker are positioned in the grommet. The first speaker can be a receiver speaker and the second speaker can be a micro-speaker.

BACKGROUND OF THE INVENTION

The present invention relates to audio systems for personal use, such asin mobile terminals and, more particularly, to speaker assemblies.

Manufacturers and designers of personal electronic devices, such ascellular radio telephones, frequently seek to reduce the overalldimensions of such devices while maintaining attractive stylecharacteristics for the devices. One consequence of the reduced size forsuch devices that include a speaker is that less space may be availablefor the speaker. Furthermore, a variety of audio signal generationcapabilities may be desired in such personal electronic devicesincluding buzzers, voice signal generation and/or music or other higherfrequency band signal reproduction and playback. Some devices include asecond speaker to provide this added functionality.

As the space available for the hardware supporting the audio signalgeneration capabilities decreases in the personal electronic devices, itmay become more difficult to support multiple sound emitting outputdevices and the space available for each such device may become smaller.Furthermore, increased functionality in such personal electronic devicesmay require more of the reduced available space to be utilized for otherfunctionality of the device. The reduction in the size of the audiooutput devices may also increase the difficulty of providing a desirableloudness level for signals, such as buzzer alert signals.

One approach to providing a range of volumes in a handheld device is touse a clamshell device, such as a flip phone, including a switchindicating when the flip phone is in the open position. Responsive tothe switch detecting opening of the flip phone, the acoustic level ofthe speaker may be lowered assuming the user is about to place thedevice near the user's ear. However, clamshell devices not equipped withsuch switches and non-clamshell type designs typically do not have theability to anticipate that the phone is about to be moved to the user'sear. Instead, the speaker volume may be a compromise level that mayresult in high peak acoustic levels to a user at the earpiece or lowerthan desirable alerting levels as discussed above.

Some other handset device designs may include two separate speakers thatare positioned in separate areas of the device. Typically, the earpieceacoustic first speaker is positioned adjacent the front face of thedevice by the earpiece and the second speaker, that may provide addedaudio functionality, is positioned under the keypad or battery or in theantenna volume as a rear-firing speaker with its own, separate, acousticchannels. However, the size of a device including two remotely locatedspeakers may be increased to accommodate both speakers and their relatedacoustic channels. Such devices may also experience acoustic coupling ofthe speakers that may, in turn, cause increased acoustic echo.

SUMMARY OF THE INVENTION

Embodiments of the present invention provide mobile terminals includinga housing and an electronic circuit positioned in the housing. A firstspeaker is positioned adjacent a first side of the electronic circuitand a second speaker is positioned adjacent the first speaker on thefirst side of the electronic circuit. A grommet may be positioned in thehousing that is configured to receive the first speaker and the secondspeaker and the first speaker and the second speaker are positioned inthe grommet.

In some embodiments of the present invention, the first speaker mayinclude a receiver speaker and the second speaker may include amicro-speaker. The receiver speaker may have a DC resistance at leastabout two times a DC resistance of the micro-speaker. The DC resistanceof the receiver speaker may be about 32 ohms and the DC resistance ofthe micro-speaker may be about 8 ohms.

In further embodiments of the present invention, the grommet may beconfigured to provide a seal between a front face of the first speakerand a back face of the first speaker and between a front face of thesecond speaker and a back face of the second speaker. In certainembodiments of the present invention, the housing may include a frontface including a keypad and an earpiece. The first speaker and thesecond speaker may be positioned between the electronic circuit and thefront face.

The electronic circuit may include a printed circuit board. The mobileterminal may further include a first passageway acoustically couplingthe front face of the first speaker to the earpiece. The mobile terminalmay further include a seal between a first face of the grommet and thefront face of the housing and a seal between a second face of thegrommet and the first side of the printed circuit board.

In still further embodiments of the present invention, the mobileterminal may further include a second passageway acoustically couplingthe front face of the second speaker to an opening in a face of thehousing remote from the earpiece. The grommet may define the first andsecond passageways. In certain embodiments of the present invention, theopening remote from the earpiece may be positioned on a side face of thehousing.

In some embodiments of the present invention, the first passageway mayinclude a first high frequency forward tuning volume adjacent the frontface of the first speaker and the second passageway may include a secondhigh frequency forward tuning volume adjacent the front face of thesecond speaker. The mobile terminal may further include a first lowfrequency back tuning volume adjacent the back face of the first speakerand a second low frequency back tuning volume adjacent the back face ofthe second speaker.

In further embodiments of the present invention, the grommet may furtherinclude an opening extending through the grommet that acousticallycouples the first forward tuning volume and the first low frequency backtuning volume. The first passageway may acoustically couple the frontface of the first speaker and the back face of the first speaker to theearpiece. In certain embodiments, the grommet may further include a sealmember between a face of the grommet adjacent the front face of thefirst speaker and the front face of the housing and the seal member mayinclude a slit. A bottom of the front face of the housing may include agroove adjacent the front face of the first speaker and the slit may beconfigured to align with the groove to define a third passageway thatacoustically couples the front face of the first speaker and the firstforward tuning volume.

In still further embodiments of the present invention, the mobileterminal may further include a mounting member between the front face ofthe housing and a back face of the housing. The printed circuit boardmay be positioned between the front face of the housing and the mountingmember.

In some embodiments of the present invention, there may be at least oneopening extending through the printed circuit board adjacent the backface of the first speaker that acoustically couples the back face of thefirst speaker to a region of the first back tuning volume defined by theprinted circuit board and the mounting member.

In further embodiments of the present invention, a planar antenna may bepositioned in the housing between the mounting member and the back faceof the housing. In certain embodiments of the present invention, theremay be least one opening extending through the printed circuit boardadjacent the back face of the second speaker that acoustically couplesthe back face of the second speaker to a first region of the second backtuning volume defined by the printed circuit board and the mountingmember. The mobile terminal may further include a second region of thesecond back tuning volume defined by the mounting member and the planarantenna and at least one opening extending through the mounting memberbetween the first region and the second region of the second back tuningvolume.

In still further embodiments of the present invention, the grommet maybe configured to provide seals for the first passageway and the secondpassageway and the first back tuning volume and the second back tuningvolume to suppress acoustic echo in the housing by reducing leakage fromthe second passageway and the first and second back tuning volumes pastthe earpiece.

In some embodiments of the present invention, the mobile terminal mayinclude a seal between a second side of the printed circuit board and afirst face of the mounting member that substantially closes the firstback tuning volume and seals between a second side of the printedcircuit board and a first face of the mounting member and between afirst face of the planar antenna and a second face of the mountingmember that substantially closes the second back tuning volume.

In further embodiments of the present invention, the seal between thesecond side of the printed circuit board and the first face of themounting member may include a plastic to plastic seal. In certainembodiments of the present invention, the seals between a second side ofthe printed circuit board and a first face of the mounting member andbetween a first face of the planar antenna and a second face of themounting member may include a plastic to plastic seal. In certainembodiments of the present invention, the seals between the printedcircuit board and the planar antenna and the mounting member may furtherinclude an adhesive layer.

In still further embodiments of the present invention, the printedcircuit board may define a ground plane. Furthermore, the planar antennamay be substantially parallel to and electrically coupled to the printedcircuit board and positioned at a selected distance from the groundplane to provide a desired frequency response of the planar antenna.

In some embodiments of the present invention, the mobile terminal mayinclude spring connectors that electrically couple the first speaker tothe first side of the electronic circuit and that electrically couplethe second speaker to the first side of the electronic circuit.

In further embodiments of the present invention, the opening remote fromthe earpiece may have an area of less than about 10 square millimeters(mm²). In certain embodiments of the present invention, a filter may beprovided in the opening remote from the earpiece. The filter may be afoam insert.

In still further embodiments of the present invention, the grommet mayinclude a first member configured to receive the first speaker and toprovide a seal between a front face of the first speaker and a back faceof the first speaker. The grommet may further include a second memberconfigured to receive the second speaker and to provide a seal between afront face of the second speaker and a back face of the second speaker.In certain embodiments of the present invention, the first and secondmembers may include a unitary member.

In some embodiments of the present invention, the first speaker and thesecond speaker may have a diameter of from about 10 millimeters (mm) toabout 20 mm. The mobile terminal may further include a receiver thatreceives encoded audio signals from a wireless communications networkand a controller that decodes the received audio signals and selectivelyprovides the decoded audio signals to the first speaker and/or thesecond speaker. Some embodiments of the present invention provide mobileterminals including a housing including a front face having a keypad andan earpiece. The mobile terminal further includes an electronic circuitpositioned in the housing, a first speaker positioned between a firstside of the electronic circuit in the housing and the front faceadjacent the earpiece and a grommet positioned in the housing. Thegrommet includes the first speaker and is configured to provide seals onacoustic passageways associated with the first speaker between a frontface and a back face of the first speaker, between the front face of thehousing and the front face of the first speaker and between the backface of the first speaker and the first side of the electronic circuitso as to suppress acoustic echo in the housing by reducing leakage fromthe acoustic passageways past the earpiece. The acoustic passagewaysinclude a forward acoustic passageway acoustically coupling the firstspeaker to the earpiece.

Further embodiments of the present invention provide a speaker assemblyincluding a grommet defining adjacent first and second receivingchambers. The assembly further includes a first speaker positioned inthe first receiving chamber and a second speaker positioned in thesecond receiving chamber. The grommet is configured to provide a sealbetween a front face of the first speaker and a back face of the firstspeaker and between a front face of the second speaker and a back faceof the second speaker.

In some embodiments of the present invention, the grommet may be furtherconfigured to define a first acoustic passageway extending from thefirst chamber to an outer face of the grommet and a second acousticpassageway extending from the second chamber to an outer face of thegrommet at a location remote from the first acoustic passageway. Incertain embodiments of the present invention, the grommet has a firstface configured to provide a seal between the grommet and asubstantially planar member and a second face, opposite the first face,configured to provide a seal between the grommet and a substantiallyplanar member. The grommet may also include a unitary elastomericmember.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic block diagram illustrating a mobile terminalincluding a speaker assembly according to some embodiments of thepresent invention;

FIG. 2 is a cross-sectional view illustrating a speaker assemblyaccording to some embodiments of the present invention;

FIG. 3 is a perspective diagram illustrating acoustic paths of forwardtuning volumes and back tuning volumes according to some embodiments ofthe present invention;

FIG. 4 is an exploded perspective view of a mobile terminal including aspeaker assembly according to some embodiments of the present invention;

FIG. 5 is a perspective view of a grommet according to some embodimentsof the present invention;

FIG. 6 is a top view of a speaker assembly according to some embodimentsof the present invention;

FIG. 7 is a bottom view of the printed circuit board of FIG. 4 accordingto some embodiments of the present invention;

FIG. 8 is a bottom perspective view of the mounting member and planarantenna of FIG. 4 according to some embodiments of the presentinvention;

FIG. 9 is an exploded perspective view of a mobile terminal including asealed speaker assembly according to other embodiments of the presentinvention; and

FIG. 10 is a bottom perspective view of the front cover of FIG. 4according to some embodiments of the present invention.

DETAILED DESCRIPTION

The present invention now will be described more fully hereinafter withreference to the accompanying drawings, in which illustrativeembodiments of the invention are shown. In the drawings, the relativesizes of regions or features may be exaggerated for clarity. Thisinvention may, however, be embodied in many different forms and shouldnot be construed as limited to the embodiments set forth herein; rather,these embodiments are provided so that this disclosure will be thoroughand complete, and will fully convey the scope of the invention to thoseskilled in the art.

It will be understood that although the terms first and second are usedherein to describe various elements, these elements should not belimited by these terms. These terms are only used to distinguish oneelement from another element. Thus, a first element discussed below maybe termed a second element, and similarly, a second element may betermed a first element without departing from the teachings of thepresent invention.

The present invention will be described below with respect to someembodiments of the invention illustrated in FIGS. 1 through 10.Embodiments of the present invention provide speaker assemblies andmobile terminals including a speaker assembly having a first speaker anda second speaker positioned on a first side of an electronic circuit,for example, a printed circuit board. The first side in some embodimentsis the front side of the electronic circuit, which may allow placementof the speaker assembly adjacent a user earpiece in the front face ofthe device. Positioning both the first speaker and the second speaker onthe same side of the electronic circuit may allow the size of the devicein which the first speaker and the second speaker are positioned to bereduced or may allow more room within the device for other componentsand/or features.

In certain embodiments of the present invention the first speaker andthe second speaker each include independent front and back volumes,which may minimize acoustic coupling between the first speaker and thesecond speaker as there is no intentional leakage past an earpiece ofthe device. The reduction in the acoustic coupling of the speakers mayalso reduce the amount of acoustic echo experienced by the user. As willbe further described below, the first speaker and the second speaker maybe sealed and isolated from one another by including the first speakerand the second speaker in, for example, a grommet, configured to receivethe first speaker and the second speaker and to seal the first speakerand the second speaker.

Embodiments of the present invention will now be described withreference to the schematic block diagram illustration of a mobileterminal in FIG. 1. FIG. 1 illustrates an exemplary radiotelephonecommunication system, in accordance with embodiments of the presentinvention, which includes a mobile terminal 22 configured to communicatewith a base station transceiver 24 of a wireless communications network.The mobile terminal 22 includes a portable housing 23 and may include akeyboard/keypad 26, a display 28, a speaker assembly 32, a microphone34, a transceiver 36, and a memory 38 that communicate with acontroller/processor 42. The transceiver 36 typically includes atransmitter circuit 44 and a receiver circuit 46, which respectivelytransmit outgoing radio frequency signals to the base stationtransceiver 24 and receive incoming radio frequency signals, such asvoice or other audio signals, from the base station transceiver 24 viaan antenna 48. The radio frequency signals transmitted between themobile terminal 22 and the base station transceiver 24 may comprise bothtraffic and control signals (e.g., paging signals/messages for incomingcalls), which are used to establish and maintain communication withanother party or destination.

The controller/processor 42 may support various functions of the mobileterminal 22, including decoding received audio signals from the receivercircuit 42 and selectively providing the decoded audio signals to thespeaker assembly 32. As shown in FIG. 1, musical instrument digitalinterface (MIDI) signals may be supplied to the speaker 32 by a MIDIsynthesizer 35 for polyphonic signals, alerting and/or user feedback.Alternatively, synthesizers for other formats may be provided.

The foregoing components of the mobile terminal 22, other than thespeaker assembly 32, may be included in many conventional mobileterminals and their functionality is generally known to those skilled inthe art. It should be further understood, that, as used herein, the term“mobile terminal” may include a cellular radiotelephone with or withouta multi-line display; a Personal Communications System (PCS) terminalthat may combine a cellular radiotelephone with data processing,facsimile and data communications capabilities; a Personal DataAssistant (PDA) that can include a radiotelephone, pager,Internet/intranet access, Web browser, organizer, calendar and/or aglobal positioning system (GPS) receiver; and a conventional laptopand/or palmtop portable computer, that may include a radiotelephonetransceiver, or other portable device using a speaker in a spaceconstrained housing configuration.

The base station transceiver 24 is typically a radio transceiver(s) thatdefines an individual cell in a cellular network and communicates withthe mobile terminal 22 and other mobile terminals in the cell using aradio-link protocol. Although only a single base station transceiver 24is shown, it will be understood that many base station transceivers maybe connected through, for example, a mobile switching center and otherdevices to define a wireless communications network.

Although the present invention may be embodied in communication devicesor systems, such as the mobile terminal 22, it will be understood thatthe present invention is not limited to such devices and/or systems.Instead, the present invention may be embodied in any apparatus thatutilizes a micro-speaker and generates a range of sounds for differentpurposes, in particular, handheld devices.

A speaker assembly according to embodiments of the present inventionwill now be further described with reference to the schematic blockdiagram illustration of FIG. 2. As shown in the embodiments of FIG. 2,the speaker assembly 132 includes a first speaker 154 and a secondspeaker 155 positioned in a portable housing 150. Only a portion of thehousing 150 is shown in FIG. 2 and the housing 150 may include othercomponents that are not directly related to the speaker assembly 132. Itwill be understood that in some embodiments of the present invention,the first speaker 154 may be a receiver speaker and the second speaker155 may be a micro-speaker. The receiver speaker may have a DCresistance of about 32 ohms and the micro-speaker may have a DCresistance of about 8 ohms. A receiver speaker may, for example, be usedto deliver audio to an earpiece and a micro-speaker may, for example, beused to deliver alerting tones to a user as discussed further herein.Furthermore, in some embodiments of the present invention amicro-speaker may include one or more functionalities of a receiverspeaker and/or a receiver speaker may include one or morefunctionalities of a micro-speaker without departing from the teachingsof the present invention.

The first speaker 154 includes a front face 156 and a back face 158positioned opposite from the front face 156. The rear face of a speakertypically refers to the face adjacent the transducer/coil components ofthe speaker. However, in various embodiments of the present inventionthe speaker or speakers may be reverse mounted and, as used herein,“front face” will refer to the face of the speaker associated with theforward or high frequency tuning volume and “rear face” will refer tothe face of the speaker associated with the back or low frequency tuningvolume. As shown in FIG. 2, an acoustic passageway defining a first highfrequency forward tuning volume 160 is located adjacent the front face156 of the first speaker 154. A passageway 165 extends from the firstforward tuning volume 160 to an opening 170 in the housing 150. Theopening 170 in some embodiments of the present invention is an earpiece,for example, on the front face of the housing 150.

As shown in FIG. 2, the second speaker 155 includes a front face 157 anda back face 159 positioned opposite from the front face 157. An acousticpassageway defining a second high frequency forward tuning volume 161 islocated adjacent the front face 157 of the second speaker 155. A secondpassageway 166 extends from the second forward tuning volume 161 to anopening 171 in the housing 150. For the embodiments illustrated in FIG.2, the opening 171 is in the side of the housing 150.

It will be understood that the frequency response of the first speaker154 and/or the second speaker 155 may be tuned to provide an amplituderesponse in a voice frequency range and a high amplitude response,greater than the response of the voice frequency range, at an alertfrequency. Such tuning for a high alert volume may be associated withthe second speaker 155 to facilitate routing of such signals to alocation remote from the earpiece. The first speaker and/or the secondspeaker may also be tuned to provide an amplitude response in anextended frequency range above the voice frequency range, for example,to support musical sounds (polyphonic).

As further illustrated in FIG. 2, the second speaker assembly furtherincludes a first low frequency back tuning volume 180, which is coupledto the back face 158 of the first speaker 154 through openings 180′ inthe printed circuit board 182. The back tuning volume 180 may beacoustically closed as illustrated in FIG. 2. The first low frequencyback tuning volume 180 may be, for example, a 0.5 cubic centimeter (cc)back tuning volume. The second speaker assembly further includes asecond low frequency back tuning volume 181, which is coupled to theback face 159 of the second speaker 155 through openings 181′ in theprinted circuit board 182.

As shown in FIG. 2, the back tuning volume 181 includes a first region181 a defined between the printed circuit board 182 and a mountingmember 173 and a second region 181 b defined between the mounting member173 and the planar antenna 174 with at least one opening 181″ in themounting member 173 acoustically coupling the regions 181 a, 181 b. Theback tuning volume 181 may also be acoustically closed.

While the relative volumes of the respective tuning volumes are merelyillustrative and not intended to limit the present invention, in variousembodiments of the present invention, the back tuning volumes are atleast an order of magnitude larger than the forward tuning volumes. Infurther embodiments of the present invention, the second back tuningvolume 181 is at least twice as large as the first back tuning volume180.

Referring again to FIG. 2, the speaker assembly 132 illustrated in FIG.2 may be used as the speaker assembly 32 in a mobile terminal 22, forexample, the mobile terminal 22 illustrated in FIG. 1. In such a case,the portable housing 23 of the mobile terminal 22 may serve as thehousing 150 of the speaker assembly 132. It is to be further understoodthat, while the illustration of FIG. 2 shows a side opening 171(porting) for the second speaker 155, the invention is not limited tosuch a porting and may also be ported to an opening remote from opening170 in another face of the mobile terminal 22 without departing from theteachings of the present invention. For example, the second speaker 155may be ported to the front face (i.e., keyboard/display face) of themobile terminal 22 or other location selected, for example, to avoidpeak acoustic exposure to high sound levels at an earpiece position ofthe mobile terminal 22. In further embodiments of the present invention,it will be understood that the first speaker 154 and the second speaker155 may be ported through or integrated into other hardware of themobile terminal 22, as well as the configuration illustrated in FIG. 2,while maintaining a desired audio performance of the speaker assembly132.

As further illustrated in the embodiments of FIG. 2, the first speaker154 and the second speaker 155 are electrically coupled to an electroniccircuit, for example, the printed circuit board 182. The electricalconnection may be provided by, for example, spring connectors/contacts(not shown) on the printed circuit board and/or on the first speaker 154and/or the second speaker 155.

In the embodiments illustrated in FIG. 2, the first speaker 154 and thesecond speaker 155 are positioned in a grommet 184. The grommet 184 maybe configured to provide a seal between the front face 156 and the backface 158 of the first speaker 154 and the front face 157 and the backface 159 of the second speaker 155. The grommet may also define theacoustic passageways including the first and second forward tuningvolumes 160 and 161 and the first and second passageways 165 and 166.

The first speaker 154 and the second speaker 155, in various embodimentsof the present invention, may have a diameter of from about 10millimeters (mm) to about 20 mm. In certain embodiments, the opening 171may have an area of less than about 10 square millimeters (mm²). Such asmall port size may be about half the size, or less, of typical existingporting strategies for micro-speakers. The use of such smaller portingsize openings for the opening 171 may, for example, be desirable toreduce audio interference or detraction from the appearance of themobile terminal 22 or other device in which the speaker assembly 132 islocated.

Referring now to FIGS. 2 and 3, the porting paths of the first andsecond forward tuning volumes and first and second back tuning volumeswill be further described. The porting path of the first forward tuningvolume 160 through the first passageway 165 is illustrated by a firstarrow 301, i.e. out opening 170. The porting path of the second forwardtuning volume 161 through the second passageway 166 is illustrated byarrow 302, i.e. out opening 171. The porting path of the first backtuning volume 180 is illustrated by a third set of arrows 303. Asillustrated, opening(s) 180′ in the printed circuit board 182acoustically couple the back face 158 of the first speaker 154 to thefirst back tuning volume 180, which is defined by the mounting member173. Similarly, the porting path of the second back tuning volume 181 isillustrated by a fourth set of arrows 304. As illustrated, opening(s)181′ in the printed circuit board 182 acoustically couple the back face159 of the second speaker 155 to a first region 181 a of the second backtuning volume 181. Opening(s) 181″ in the mounting member 173acoustically couple the first region 181 a to a second region 181 b ofthe second back tuning volume 181 defined by the planar antenna 174 andthe mounting member 173.

Speaker assemblies according to embodiments of the present invention mayprovide a dual speaker assembly including a first speaker and a secondspeaker on a same side of the printed circuit board adjacent oneanother. This may allow the overall size of the device to be reduced ormay allow additional components providing additional functionalities tobe included in the device. Furthermore, as discussed above, the firstspeaker and the second speaker may each have dedicated front and backvolumes, which may substantially isolate the speakers and may reduceacoustic coupling between the speakers. The addition of the grommet forproviding a seal as discussed above may also contribute to the reductionof acoustic coupling and the isolation of the speakers. Accordingly, theamount of acoustic handset echo experienced by the user may be reducedresulting from the reduction of acoustic coupling of the speakers, i.e.no intentional leakage past the earpiece. It will be understood that theisolation of the acoustic passages may both reduce echo from soundsgenerated by the receiver speaker passing out of the micro-speakerpassageways and reduce sounds generated by the micro-speaker frompassing into the acoustic passageways of the receiver speaker andintroducing potentially high volume signals directly to the earpiece.

It will be understood that the first speaker and/or the second speakeraccording to embodiments of the present invention may have a tuningvolume used to extend to high frequencies. Speaker assemblies and mobileterminals including speaker assemblies utilizing the tuning volume toextend to high frequencies are discussed in commonly assigned U.S.patent application Ser. No. ______ (Attorney Docket No. 9314-46)entitled Reverse Mounted Micro-Speaker Assemblies and Mobile Terminalsincluding the Same, filed May 30, 2003, and commonly assigned U.S.patent application Ser. No. 10/256,745 (Attorney Docket No. 9314-17)entitled Double-Resonator Micro-Speaker Assemblies and Methods forTuning the Same, filed Sep. 27, 2002, the disclosures of which arehereby incorporated herein by reference as if set forth in theirentirety.

Further embodiments of the present invention will now be described withreference to FIGS. 4 through 8. FIG. 4 is an exploded perspective viewof a mobile terminal 400 including a speaker assembly according to someembodiments of the present invention. As illustrated in FIG. 4, themobile terminal 400 includes a front cover 405 (front face) and a backcover 410 (back face) that mate with a mounting member 430 to define ahandheld portable housing of the mobile terminal 400. A printed circuitboard 415, a first speaker 420, a second speaker 421, a grommet 425 anda planar antenna 435 are positioned in the housing.

The printed circuit board 415 may include and/or be coupled to userinput/output devices such as a display 437 and a keyboard or keypad 439on a first side of the printed circuit board 415. As further illustratedfor the embodiments shown in FIG. 4, the first speaker 420 and thesecond speaker 421 are also electrically coupled to the first side ofthe printed circuit board 415. The first side of the printed circuitboard 415 may be a front side of the printed circuit board, i.e. a sideincluding the display 437 and keypad 439 as shown in FIG. 4 or may,alternatively, be a back side of the printed circuit board, i.e., a sideremote from the display 437 and keypad 439 without departing from theteachings of the present invention.

Spring connectors or contacts 491 on the first side of the printedcircuit board 415 may be used to electrically couple the second speaker421 to the first side of the printed circuit board 415. Furthermore, aspring connector 493 on the back face 478 of the first speaker 420 maybe used to electrically couple the first speaker 420 to the first sideof the printed circuit board 415. As shown in FIG. 4, the first speaker420 and the second speaker 421 are positioned between the printedcircuit board 415 and the front cover 405 of the housing. An opening 442in the front cover 405 is positioned adjacent the first speaker 420 toprovide an earpiece for a user of the mobile terminal 400.

As shown in FIG. 7, the printed circuit board 415 may also includevarious components associated with a second side of the printed circuitboard 415 opposite the first side of the printed circuit board 415. Areceiver 485 that receives audio signals from a wireless communicationsnetwork is illustrated mounted on the second side of the printed circuitboard 415. A controller 487 decodes the audio signals and selectivelyprovides the decoded audio signals to the first speaker 420 and/or thesecond speaker 421. A system connector 489 on the printed circuit board415 extends through the housing of the mobile terminal 400 to allowaccess to the circuitry on the printed circuit board 415, for example,for use by an auxiliary component coupled to the system connector 489.

Referring again to FIG. 4, the grommet 425 is configured to receive thefirst speaker 420 and the second speaker 421 and provide a seal betweenthe front 477 and back 478 faces of the first speaker 420 and betweenthe front 476 and back 479 faces of the second speaker 421. Asillustrated in FIG. 5, the grommet 425 may be a unitary molded memberthat is configured to receive the first speaker 420 and the secondspeaker 421 and to provide a seal as discussed above. It will beunderstood that the grommet 425 illustrated in FIG. 5 is provided forexemplary purposes only and that embodiments of the present inventionare not limited to this configuration. For example, the functionality ofthe grommet may be provided by a first member configured to receive andseal the first speaker 420 and a separate second member configured toreceive and seal a second speaker 421 without departing from theteachings of the present invention.

The first speaker 420 and the second speaker 421 are illustrated in FIG.6 positioned in the grommet 425 illustrated in FIG. 5. The surface ofthe grommet illustrated in FIG. 6 is the surface of the grommet thatcontacts the front face 405 of the housing when positioned in thehousing. Thus, the front face 477 of the first speaker 420 and the frontface 476 of the second speaker 421 are illustrated in FIG. 6. Thegrommet illustrated in FIG. 6 further includes an opening 475 thatacoustically couples the first forward tuning volume to the first backvolume.

Referring again to FIG. 4, the grommet 425 further defines a firstforward tuning volume 445 adjacent the front face 477 of the firstspeaker 420. The grommet 425 and the front face 405 of the housingfurther define a first passageway 165 (FIG. 2) acoustically coupling thefirst forward tuning volume 445 to an earpiece opening 442 in the frontcover 405 of the housing. The grommet 425 further defines a secondpassageway 166 (FIG. 2) defining a second forward tuning volume 447acoustically coupling the front face 476 of the second speaker 421 to anopening 443 in a face of the housing remote from the earpiece 442. Inthe illustrated embodiments, the opening 443 is in the side face of themounting member 430. In certain embodiments of the present invention, asillustrated, for example, in FIGS. 4 and 6, a filter 449 may be placedin the opening 443 to filter debris. The filter 449 may be, for example,a foam filter.

As shown in FIG. 4, the printed circuit board 415 further includes atleast one opening 496 adjacent the back face 478 of the first speaker420 extending through the printed circuit board to a first back volume417 defined by the mounting member 430. The at least one opening 496acoustically couples the back face 478 of the first speaker 420 to thefirst back tuning volume 417 having sidewalls 418 and a back wall 419defined by the mounting member 430. As illustrated in FIG. 4, the firstback tuning volume 417 may be a closed back volume and a seal betweenthe sidewalls 418 of the mounting member 430 and the printed circuitboard 415 may be, for example, a plastic-to-plastic seal. An adhesivelayer may also be provided therebetween to facilitate sealing.

Referring now to FIGS. 4, 6 and 10, in certain embodiments of thepresent invention the grommet 425 may further include an opening 475that acoustically couples the first back tuning volume 417 to the firstforward tuning volume 445, i.e. acoustically couples the back face 478of the first speaker 420 to the first forward tuning volume 445. Thus,the grommet 425 and the front face 405 of the housing may define thefirst passageway 165 (FIG. 2) acoustically coupling both the firstforward tuning volume 445 and the first back tuning volume 417 to anearpiece opening 442 in the front cover 405 of the housing. In theseembodiments of the present invention, the first forward tuning volume445 may be, for example, a 0.15 cubic centimeter (cc) forward tuningvolume.

In certain embodiments of the present invention, the grommet 425 mayfurther include a slit 474 in a seal member 411 around the first speaker420. The slit 474 may be configured to align with a groove 1012 (FIG.10) in the front cover 405 of the housing and may define a thirdpassageway 1010 that acoustically couples the front face 477 of thefirst speaker 420 to the first forward tuning volume 445. The groove 408in the front cover 405 of the housing may have a width of about 1.8 mm,a depth of about 0.5 mm and a length of about 10 mm. The slit 474 mayalso have a width of about 1.8 mm such that it will mate with the groove408. It will be understood that a grommet 425 according to someembodiments of the present invention may include the opening 475 and theslit 474 in the seal member 411 or may just include the slit 474 or theopening 475 without departing from the teachings of the presentinvention. Furthermore, in some embodiments of the present invention, adepression 1014 in the front cover 405 of the housing illustrated inFIG. 10 may further define the first forward tuning volume 445.

As illustrated in the embodiments of FIGS. 4 and 8, a planar antenna435, which is electrically coupled to the printed circuit board 415, ispositioned at a selected distance from the printed circuit board 415,when the mobile terminal 400 is assembled. The printed circuit board 415defines a ground plane for the planar antenna 435 and the antenna 435may be positioned substantially parallel to the ground plan at adistance selected to provide a desired frequency response for the planarantenna 435. It will also be understood that a “planar” antenna, as thatterm is used herein, need not be entirely planar and may be, forexample, curved conformally with the housing of the mobile terminal 400.

A shown in FIG. 4, the planar antenna 435 is positioned between themounting member 430 and a first portion 410A of the back cover 410 ofthe housing. A plastic-to-plastic seal is provided between the planarantenna 435 and sidewalls 482 on a bottom side of the mounting member430 to define an acoustically closed region of a second back tuningvolume for the second speaker 421. However, it will be understood thatother seal means may be used in various embodiments of the presentinvention, such as an adhesive. Furthermore, while illustrated as havingsidewalls provided by the mounting member 430 in FIG. 5, it will beunderstood that, in other embodiments of the present invention, thesidewalls 482 may be provided as features of the planar antenna 435and/or as features of both the mounting member 430 and the planarantenna 435 and the sidewalls 418 may alternatively and/or additionallybe provided as features of the printed circuit board 415.

As further illustrated in FIG. 4, the printed circuit board 415 furthercomprises at least one opening 495 extending through the printed circuitboard adjacent a back face of the second speaker 421 to a first region433A of the second back volume 433. Furthermore, the mounting member 430may also include at least one opening 431 through the mounting member430 to the second region 433B of the second back volume 433. The atleast one opening 496 in the printed circuit board 415 and the at leastone opening 431 in the mounting member 430 acoustically couple the backface of the second speaker 421 with the second back tuning volume 433.The first region 433A of the second back tuning volume 433 is defined bythe printed circuit board 415 and the mounting member 430, includingsidewalls 481 on a front face of the mounting member 430. The secondregion 433B of the second back tuning volume 433 is defined by themounting member 430 and the planar antenna 435, including sidewalls 482on the bottom side of the mounting member 430 (FIG. 8). As illustratedin FIGS. 4 and 8, the second back tuning volume 433 may be a closed backvolume and a seal between the mounting member 430 and the printedcircuit board 415 and/or the planar antenna 435 may be aplastic-to-plastic seal.

The mounting member 430 may be an insulating material such as Cycoloy®available from GE Plastics. The grommet 425 may also be an insulatingmaterial and maybe a more compliant material such as silicon rubber tofacilitate sealable engagement of the first speaker 420 and the secondspeaker 421 in the grommet 425 (FIG. 6) and to facilitate placement ofthe grommet 425 into the mobile terminal. Furthermore, while variouselectronic circuits, such as the receiver 485 and controller 487 areshown as mounted on the second face of the printed circuit board 415 inFIG. 7, it is to be understood that the second face may be the frontface of the printed circuit board 415, i.e. the face oriented toward thekeyboard, or the back face of the printed circuit board opposite thefront face of the printed circuit board 415. Furthermore, the componentsillustrated on the printed circuit board 415 may be positioned ondifferent sides of the printed circuit board 415 in various embodimentsof the present invention.

As briefly described above, a first speaker and a second speaker areprovided in a sealed member, for example, a grommet, on the same face ofan electronic circuit, for example, a printed circuit board. Providingthe first speaker and the second speaker on the same side of the printedcircuit board may allow the size of the device to be decreased or theinclusion of more components in the same size device. Furthermore,providing distinct forward and back tuning volumes having no intentionalleakage may reduce the acoustic coupling experienced by the speakers.Thus, acoustic echo caused by the acoustic coupling of the speakers maybe reduced according to some embodiments of the present invention.

Embodiments including a single speaker, in a mobile terminal 900according to the present invention are illustrated in FIG. 9. In someembodiments of the present invention, the single speaker may be areceiver speaker or a micro-speaker configured to include thefunctionality of a receiver speaker and a micro-speaker. As shown inFIG. 9, a speaker 920 is positioned in a grommet 925. The grommet 925 isconfigured to form at least part of front and back acoustic passagewaysfor the speaker 920. The grommet 925 may further be configured tosealably engage the front cover 905 of the mobile terminal 900 and theprinted circuit board 915, which may provide additional walls ofrespective acoustic passageways. The grommet 925 is configured toprovide seals on acoustic passageways associated with the speakerbetween a front face and a back face of the speaker, between the frontface of the housing and the front face of the speaker and between theback face of the speaker and the first side of the electronic circuit.As a result, acoustic echo in the housing may be suppressed by reducingleakage from the acoustic passageways past the earpiece. It is to beunderstood that the acoustic passageways include a forward acousticpassageway acoustically coupling the speaker to the earpiece and thataudio signals directed thereto are not considered leakage as that termis used herein. As shown in FIG. 9, the mobile terminal 900 furtherincludes a mounting member 930, planar antenna 935 and bottom cover 910that are operate generally as described previously with reference tosimilarly numbered (e.g., 930 to 430) items in the embodiments of FIG. 4and various combinations of regions defining back volumes may beprovided by such components for the embodiments of FIG. 9 depending onthe desired characteristics of the low frequency back tuning volume.

In the drawings and specification, there have been disclosed typicalillustrative embodiments of the invention and, although specific termsare employed, they are used in a generic and descriptive sense only andnot for purposes of limitation, the scope of the invention being setforth in the following claims.

1. A mobile terminal comprising: a housing; an electronic circuitpositioned in the housing; a first speaker positioned adjacent a firstside of the electronic circuit; and a second speaker positioned adjacentthe first speaker on the first side of the electronic circuit.
 2. Themobile terminal of claim 1, wherein the first speaker comprises areceiver speaker and the second speaker comprises a micro-speaker. 3.The mobile terminal of claim 2, wherein the receiver speaker has a DCresistance at least about two times a DC resistance of themicro-speaker.
 4. The mobile terminal of claim 3, wherein the DCresistance of the receiver speaker is about 32 ohms and the DCresistance of the micro-speaker is about 8 ohms.
 5. The mobile terminalof claim 1 further comprising a grommet positioned in the housing thatis configured to receive the first speaker and the second speaker,wherein the first speaker and the second speaker are positioned in thegrommet.
 6. The mobile terminal of claim 5 wherein the grommet isconfigured to provide a seal between a front face of the first speakerand a back face of the first speaker and between a front face of thesecond speaker and a back face of the second speaker.
 7. The mobileterminal of claim 6 wherein the housing comprises a front face includinga keypad and an earpiece and wherein the first speaker and the secondspeaker are positioned between the electronic circuit and the front faceand wherein the electronic circuit comprises a printed circuit board,the mobile terminal further comprising a first passageway acousticallycoupling the front face of the first speaker to the earpiece.
 8. Themobile terminal of claim 7 further comprising a seal between a firstface of the grommet and the front face of the housing and a seal betweena second face of the grommet and the first side of the printed circuitboard.
 9. The mobile terminal of claim 7 further comprising a secondpassageway acoustically coupling the front face of the second speaker toan opening in a face of the housing remote from the earpiece.
 10. Themobile terminal of claim 9 wherein the grommet defines the first andsecond passageways.
 11. The mobile terminal of claim 9 wherein theopening remote from the earpiece is positioned on a side face of thehousing.
 12. The mobile terminal of claim 9, wherein the firstpassageway includes a first high frequency forward tuning volumeadjacent the front face of the first speaker and wherein the secondpassageway includes a second high frequency forward tuning volumeadjacent the front face of the second speaker, the mobile terminalfurther comprising: a first low frequency back tuning volume adjacentthe back face of the first speaker; and a second low frequency backtuning volume adjacent the back face of the second speaker.
 13. Themobile terminal of claim 12, wherein the grommet further comprises anopening extending through the grommet that acoustically couples thefirst forward tuning volume and the first low frequency back tuningvolume and wherein the first passageway acoustically couples the frontface of the first speaker and the back face of the first speaker to theearpiece.
 14. The mobile terminal of claim 12, wherein the grommetfurther includes a seal member between a face of the grommet adjacentthe front face of the first speaker and the front face of the housingand wherein the seal member includes a slit and wherein a bottom of thefront face of the housing includes a groove adjacent the front face ofthe first speaker and wherein the slit is configured to align with thegroove to define a third passageway that acoustically couples the frontface of the first speaker and the first forward tuning volume.
 15. Themobile terminal of claim 12 further comprising: a mounting memberbetween the front face of the housing and a back face of the housing,wherein the printed circuit board is positioned between the front faceof the housing and the mounting member.
 16. The mobile terminal of claim15 further comprising at least one opening extending through the printedcircuit board adjacent the back face of the first speaker thatacoustically couples the back face of the first speaker to a region ofthe first back tuning volume defined by the printed circuit board andthe mounting member.
 17. The mobile terminal of claim 15, furthercomprising a planar antenna positioned in the housing between themounting member and the back face of the housing.
 18. The mobileterminal of claim 17 further comprising at least one opening extendingthrough the printed circuit board adjacent the back face of the secondspeaker that acoustically couples the back face of the second speaker toa first region of the second back tuning volume defined by the printedcircuit board and the mounting member.
 19. The mobile terminal of claim18 further comprising a second region of the second back tuning volumedefined by the mounting member and the planar antenna and at least oneopening extending through the mounting member between the first regionand the second region of the second back tuning volume.
 20. The mobileterminal of claim 19 further comprising at least one opening extendingthrough the printed circuit board adjacent the back face of the firstspeaker that acoustically couples the back face of the first speaker toa region of the first back tuning volume defined by the printed circuitboard and the mounting member.
 21. The mobile terminal of claim 19wherein the grommet is configured to provide seals for the firstpassageway and the second passageway and the first back tuning volumeand the second back tuning volume to suppress acoustic echo in thehousing by reducing leakage from the second passageway and the first andsecond back tuning volumes past the earpiece.
 22. The mobile terminal ofclaim 19 further comprising a seal between a second side of the printedcircuit board and a first face of the mounting member that substantiallycloses the first back tuning volume and seals between a second side ofthe printed circuit board and a first face of the mounting member andbetween a first face of the planar antenna and a second face of themounting member that substantially closes the second back tuning volume.23. The mobile terminal of claim 22 wherein the seal between the secondside of the printed circuit board and the first face of the mountingmember comprises a plastic to plastic seal and the seals between asecond side of the printed circuit board and a first face of themounting member and between a first face of the planar antenna and asecond face of the mounting member comprise a plastic to plastic seal.24. The mobile terminal of claim 23 wherein at least one of the sealsbetween the printed circuit board and the planar antenna and themounting member further comprises an adhesive layer.
 25. The mobileterminal of claim 17 wherein the printed circuit board defines a groundplane and wherein the planar antenna is substantially parallel to andelectrically coupled to the printed circuit board and positioned at aselected distance from the ground plane to provide a desired frequencyresponse of the planar antenna.
 26. The mobile terminal of claim 9further comprising: at least one spring connector that electricallycouples the first speaker to the first side of the electronic circuit;and at least one spring connector that electrically couples the secondspeaker to the first side of the electronic circuit.
 27. The mobileterminal of claim 9 wherein the opening remote from the earpiece has anarea of less than about 10 square millimeters (mm²).
 28. The mobileterminal of claim 9 further comprising a filter in the opening remotefrom the earpiece.
 29. The mobile terminal of claim 28 wherein thefilter comprises a foam insert.
 30. The mobile terminal of claim 5wherein the grommet comprises: a first member configured to receive thefirst speaker and to provide a seal between a front face of the firstspeaker and a back face of the first speaker; and a second memberconfigured to receive the second speaker and to provide a seal between afront face of the second speaker and a back face of the second speaker.31. The mobile terminal of claim 30 wherein the first and second memberscomprise a unitary member.
 32. The mobile terminal of claim 1 whereinthe first speaker and the second speaker have a diameter of from about10 millimeters (mm) to about 20 mm.
 33. The mobile terminal of claim 1further comprising; a receiver that receives encoded audio signals froma wireless communications network; and a controller that decodes thereceived audio signals and selectively provides the decoded audiosignals to the first and/or the second speaker.
 34. A speaker assemblycomprising: a grommet defining adjacent first and second receivingchambers; a first speaker positioned in the first receiving chamber; asecond speaker positioned in the second receiving chamber; and whereinthe grommet is configured to provide a seal between a front face of thefirst speaker and a back face of the first speaker and between a frontface of the second speaker and a back face of the second speaker. 35.The speaker assembly of claim 34 wherein the grommet is furtherconfigured to define a first acoustic passageway extending from thefirst chamber to an outer face of the grommet and a second acousticpassageway extending from the second chamber to an outer face of thegrommet at a location remote from the first acoustic passageway.
 36. Thespeaker assembly of claim 35 wherein the grommet has a first faceconfigured to provide a seal between the grommet and a substantiallyplanar member and a second face, opposite the first face, configured toprovide a seal between the grommet and a substantially planar member.37. The speaker assembly of claim 34 wherein the grommet comprises aunitary elastomeric member.